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Secondary γ-rays produced by β-rays

1911; Royal Society; Volume: 85; Issue: 576 Linguagem: Inglês

10.1098/rspa.1911.0027

2053-9150

Joseph Alexander Gray,

Radioactive Decay and Measurement Techniques

When the cathode rays of a vacuum tube impinge on any material they produce the X-rays, which are not deviated by a magnetic field, and are much more penetrating than the cathode rays which produce them. We might, therefore, expect that when the β -rays from radioactive substances impinge on a plate, similar penetrating rays would be emitted from the plate. Such a penetrating type of rays, the γ -rays, is almost invariably associated with the β -rays, but it has generally been thought that these γ -rays are due to the expulsion of the β -ray from the radioactive atom. In some cases they are certainly not due to the impact of β -rays on external objects, the γ -rays of radium C being an instance of this. Here the γ -rays come; from the radioactive atoms, and in such amount that they effectually mask the possible production of γ -rays by β -rays as the experiments of H. Starke show. Starke attempted to find whether β -rays did produce γ -rays. He used for this purpose 6 milligrammes of radium bromide contained in a very thin glass tube, which let most of the β -rays out. The γ -rays from this ionised the air in an electroscope, the walls of which were thick enough to absorb all the β -rays. He looked for an increase in the ionisation when various materials were placed just behind the radium. He found practically no difference in the reading, and, from that and a similar experiment in which he deflected the β -rays away from the electroscope by a magnetic field, concluded that no measurable γ -radiation was caused by the β -rays of radium C. His experiments show that, if γ -rays are produced, they form a very small proportion of those coming from the radioactive atom.